RU2153368C1 - Device for applying magnetotherapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has ferromagnetic magnetic circuit as bed bearing patient body and designed as stator unit of asynchronous axial engine having grooves arranged in radial direction for three-phase winding to be placed in. Several patients find place on the bed when arranged in radial direction. Alternating three-phase voltage of variable magnitude and frequency depending on required movement velocity and magnetic field intensity is supplied to winding leads. Arising running magnetic field penetrates patient bodies and exerts curative action upon all organs and systems of the patients. The magnetic field is concentrated in closed space by means of ferromagnetic screen movably mounted over the patient bodies. EFFECT: enhanced effectiveness in treating several patients at a time. 2 dwg

Description

 The invention relates to medical equipment and is intended for the therapeutic effect of a running magnetic field on the entire human body in physiotherapy rooms and in medical institutions.

 The known design of the apparatus "Alimp-1" (AS USSR N 697131), used for therapeutic effects of a traveling pulsed magnetic field. It contains: an electronic unit, two types of solenoid devices and a package with eight solenoid inductors 105 mm in diameter, superimposed on the patient’s body. However, the shallow depth of penetration of the magnetic field, the impossibility of exposure to a magnetic field on the whole body, the inconvenience of the procedure due to the unfixed position of the solenoids does not contribute to the effective use of the magnetic field for medicinal purposes.

 Also known is the design of the apparatus "Magnetic Therapy Unit" (US Pat. RU N 2066214 C1, authors Gaitov B.X., Sinitsky SD), intended for therapeutic exposure to a running magnetic field on the entire patient's body. This design can be taken as a prototype of the present invention. The prototype installation magnetic circuit, used as a patient’s bed, is made in the form of a stator of a deployed (linear) three-phase AC motor, with a winding as in the well-known three-phase asynchronous or synchronous motor. An alternating three-phase voltage is applied to the terminals of the winding, the magnitude of which, as well as the frequency, depends on the required speed and magnetic field intensity. The emerging traveling magnetic field passes through the patient’s body, and, closing with the help of a shield installed from the patient with the possibility of moving, made of ferromagnetic material (yoke), has a therapeutic effect on all organs and systems of the patient. However, the low performance of this apparatus, as well as significant distortions of the magnetic field due to the edge effect, arising from the fact that the magnetic circuit of this installation is made in the form of a stator of an expanded (linear) three-phase motor, do not contribute to the effective use of the magnetic field for therapeutic purposes.

 The present invention has the task of creating the design of a magnetotherapy unit, which provides the creation of a traveling magnetic field completely passing through several patients simultaneously of a magnetic field of the required intensity, with satisfactory throughput (productivity), improved energy characteristics and the absence of magnetic field distortions.

 This is achieved by the fact that the ferromagnetic magnetic circuit of the inductor is made in the form of a stator of an axial (end) induction motor with radially spaced grooves for a three-phase winding, on which several, for example, six, ten, twelve, etc. are located in the radial direction. patients, over which there is a shield made of ferromagnetic material, which is made elastic in the form of a blanket of ferromagnetic powder that allows you to repeat the contours of the human body, which minimizes air gaps and thereby significantly improves energy performance (efficiency, cos (φ)) and increases the performance of the installation generally.

 Figure 1 shows the design of the proposed magnetotherapy unit (top view). In FIG. 2 shows a section of an axial (end) magnetic circuit of the proposed magnetotherapy unit (view A-A).

 The proposed magnetotherapeutic installation consists of an inductor 1 magnetic circuit made of sheets of electrical steel in the form of plates with radially spaced grooves 2, into which a three-phase winding 3 is laid, as in the well-known axial (end) three-phase AC motor, which is coated with compound 4 (see Fig. .2). For ease of patient placement, litter 5 is provided (see FIG. 2), for example a foam mattress. Patients 6 are located on this mattress, directly above the magnetic circuit in the radial direction, moreover, with their feet to the center, and their heads to the periphery. To increase the effect of the magnetic field on all systems and organs of patients, as well as to ensure the through passage of the magnetic flux through their bodies, a shield 7 (yoke) made of ferromagnetic material in the form of a blanket is installed with a minimum gap above the patients located directly above the inductor from ferromagnetic powder elastic allowing repeating the contours of the patient's body. For the convenience of accommodating patients, the yoke is lifting, with the ability to adjust the distance between it and the magnetic circuit using device 8 (see figure 2).

 The magnetotherapeutic installation works as follows: an alternating three-phase voltage is applied to the terminals of the winding 3 of the inductor 1, the magnitude of which, as well as the frequency, depend on the required speed and magnetic field intensity. The resulting rotating (running) magnetic field passes through the bodies of patients 6 and, closing with the help of yoke 7, has a therapeutic effect on all organs and systems of patients.

 This design of the magnetotherapy unit, with sufficient ease of manufacture, has acceptable performance. In addition, the new yoke design minimizes scattering fluxes, which greatly improves the energy performance of the installation as a whole. The magnetic circuit of the installation, used as a bed of patients, creates a magnetic field that has a therapeutic effect on all organs and systems of a person.

The geometrical dimensions of the magnetotherapy unit are calculated on the basis of the following assumptions and requirements: several, for example, six, ten, twelve, etc. patients are simultaneously exposed to magnetic field radiation. At the level of the legs, each patient should have about 40 centimeters along the arc of the magnetic circuit at the level of the inner diameter D _in ; at shoulder level - about 80 centimeters along the arc of the magnetic circuit at the level of the outer diameter D _n . The head of each patient should be less exposed to magnetic field than any other part of the body, so the head should be on the outer frontal parts of the winding (diameter D _nl ), and the legs on the inner frontal parts of the winding (diameter D _ow ). To this end, the outer and inner frontal parts of the winding are compounded (covered with a special compound) so as to completely electrically and thermally isolate patients from the winding, and the compound of the frontal parts is made in the form of a pillow under the patient’s head. The distance between the heads of neighboring patients, it is desirable to have about 150-200 centimeters.

 The principle laid down in the design of this magnetotherapy unit theoretically allows the creation of units for the simultaneous treatment of an arbitrarily large number of patients.

Claims (1)

 A magnetotherapeutic installation comprising an inductor magnetic circuit made with grooves for a three-phase winding, over which a shield made of ferromagnetic material is arranged to move, characterized in that the inductor magnetic circuit is made in the form of a stator of an axial induction motor with radially arranged grooves for a three-phase winding, above which in a radial a bed for patients is placed in the direction, and a shield made of ferromagnetic material is made elastic in the form of a blanket of ferromagnetic powder, allowing they repeat the contours of the patient’s body and minimizing air gaps.

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